Breitschwerdt, S.; Grandel, B.; Asbach, B.; Winter, F.; Allen, T.; Wagner, R.; Salzberger, B.; Schneidewind, A.
Consensus Sequences for Gag and Pol Introduced into HIV-1 Clade B Laboratory Strains Differentially Influence the Impact of Point Mutations Associated with Immune Escape and with Drug Resistance on Viral Replicative Capacity. Viruses 2025, 17, 842.
https://doi.org/10.3390/v17060842
AMA Style
Breitschwerdt S, Grandel B, Asbach B, Winter F, Allen T, Wagner R, Salzberger B, Schneidewind A.
Consensus Sequences for Gag and Pol Introduced into HIV-1 Clade B Laboratory Strains Differentially Influence the Impact of Point Mutations Associated with Immune Escape and with Drug Resistance on Viral Replicative Capacity. Viruses. 2025; 17(6):842.
https://doi.org/10.3390/v17060842
Chicago/Turabian Style
Breitschwerdt, Sven, Benedikt Grandel, Benedikt Asbach, Franziska Winter, Todd Allen, Ralf Wagner, Bernd Salzberger, and Arne Schneidewind.
2025. "Consensus Sequences for Gag and Pol Introduced into HIV-1 Clade B Laboratory Strains Differentially Influence the Impact of Point Mutations Associated with Immune Escape and with Drug Resistance on Viral Replicative Capacity" Viruses 17, no. 6: 842.
https://doi.org/10.3390/v17060842
APA Style
Breitschwerdt, S., Grandel, B., Asbach, B., Winter, F., Allen, T., Wagner, R., Salzberger, B., & Schneidewind, A.
(2025). Consensus Sequences for Gag and Pol Introduced into HIV-1 Clade B Laboratory Strains Differentially Influence the Impact of Point Mutations Associated with Immune Escape and with Drug Resistance on Viral Replicative Capacity. Viruses, 17(6), 842.
https://doi.org/10.3390/v17060842
